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The Zed Attack Proxy (ZAP) is an easy to use integrated penetration testing tool for finding vulnerabilities in web applications. It is designed to be used by people with a wide range of security experience and as such is ideal for developers and functional testers who are new to penetration testing. ZAP provides automated scanners as well as a set of tools that allow you to find security vulnerabilities manually.
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/*
*
* Paros and its related class files.
*
* Paros is an HTTP/HTTPS proxy for assessing web application security.
* Copyright (C) 2003-2004 Chinotec Technologies Company
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the Clarified Artistic License
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* Clarified Artistic License for more details.
*
* You should have received a copy of the Clarified Artistic License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
// ZAP: 2011/09/19 Handle multipart node name
// ZAP: 2011/12/04 Support deleting alerts
// ZAP: 2012/02/11 Re-ordered icons, added spider icon and notify via SiteMap
// ZAP: 2012/03/03 Moved popups to stdmenus extension
// ZAP: 2012/03/11 Issue 280: Escape URLs in sites tree
// ZAP: 2012/03/15 Changed the methods getQueryParamString and createReference to
// use the class StringBuilder instead of StringBuffer
// ZAP: 2012/07/03 Issue 320: AScan can miss subtrees if invoked via the API
// ZAP: 2012/07/29 Issue 43: Added support for Scope
// ZAP: 2012/08/29 Issue 250 Support for authentication management
// ZAP: 2013/01/29 Handle structural nodes in findNode
// ZAP: 2013/09/26 Issue 656: Content-length: 0 in GET requests
// ZAP: 2014/01/06 Issue 965: Support 'single page' apps and 'non standard' parameter separators
// ZAP: 2014/01/16 Issue 979: Sites and Alerts trees can get corrupted
// ZAP: 2014/03/23 Issue 997: Session.open complains about improper use of addPath
// ZAP: 2014/04/10 Initialise the root SiteNode with a reference to SiteMap
// ZAP: 2014/04/10 Allow to delete history ID to SiteNode map entries
// ZAP: 2014/06/16 Issue 1227: Active scanner sends GET requests with content in request body
// ZAP: 2014/09/22 Issue 1345: Support Attack mode
// ZAP: 2014/11/18 Issue 1408: Extend the structural parameter handling to forms param
// ZAP: 2014/11/27 Issue 1416: Allow spider to be restricted by the number of children
// ZAP: 2014/12/17 Issue 1174: Support a Site filter
// ZAP: 2015/02/09 Issue 1525: Introduce a database interface layer to allow for alternative
// implementations
// ZAP: 2015/04/02 Issue 1582: Low memory option
// ZAP: 2015/08/19 Change to cope with deprecation of
// HttpMessage.getParamNameSet(HtmlParameter.Type, String)
// ZAP: 2015/08/19 Issue 1784: NullPointerException when active scanning through the API with a
// target without scheme
// ZAP: 2015/10/21 Issue 1576: Support data driven content
// ZAP: 2015/11/05 Change findNode(..) methods to match top level nodes
// ZAP: 2015/11/09 Fix NullPointerException when creating a HistoryReference with a request URI
// without path
// ZAP: 2016/04/21 Issue 2342: Checks non-empty method for deletion of SiteNodes via API
// ZAP: 2016/04/28 Issue 1171: Raise site and node add or remove events
// ZAP: 2016/07/07 Do not add the message to past history if it already belongs to the node
// ZAP: 2017/01/23: Issue 1800: Alpha sort the site tree
// ZAP: 2017/06/29: Issue 3714: Added newOnly option to addPath
// ZAP: 2017/07/09: Issue 3727: Sorting of SiteMap should not include HTTP method (verb) in the
// node's name
// ZAP: 2017/11/22 Expose method to create temporary nodes (Issue 4065).
// ZAP: 2017/12/26 Remove redundant request header null checks.
// ZAP: 2018/02/07 Set the HistoryReference into the temp node before adding it to the tree (Issue
// 4356).
// ZAP: 2018/02/14 Remove unnecessary boxing / unboxing
// ZAP: 2018/07/09 Override getRoot method
// ZAP: 2019/06/01 Normalise line endings.
// ZAP: 2019/06/05 Normalise format/style.
// ZAP: 2020/07/31 Tidy up parameter methods
// ZAP: 2020/08/17 Changed to use getTreePath(msg) method
// ZAP: 2020/11/02 Do not get leaf name if finding branch nodes.
// ZAP: 2020/11/26 Use Log4j 2 classes for logging.
// ZAP: 2021/05/14 Remove empty statement and add missing override annotation.
// ZAP: 2022/02/08 Use isEmpty where applicable.
// ZAP: 2022/07/27 Use hrefMap to return early from addPath and findAndAddChild. Remove getHostName
// and use SessionStructure#getHostName in its place.
// ZAP: 2022/08/05 Address warns with Java 18 (Issue 7389).
// ZAP: 2022/08/23 Make hrefMap an instance variable.
// ZAP: 2022/09/21 Use format specifiers instead of concatenation when logging.
// ZAP: 2023/01/10 Tidy up logger.
// ZAP: 2024/01/19 Store clean node name when adding leaf node.
package org.parosproxy.paros.model;
import java.awt.EventQueue;
import java.security.InvalidParameterException;
import java.util.Comparator;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import javax.swing.tree.DefaultTreeModel;
import javax.swing.tree.MutableTreeNode;
import javax.swing.tree.TreeNode;
import org.apache.commons.httpclient.URI;
import org.apache.commons.httpclient.URIException;
import org.apache.logging.log4j.LogManager;
import org.apache.logging.log4j.Logger;
import org.parosproxy.paros.Constant;
import org.parosproxy.paros.db.DatabaseException;
import org.parosproxy.paros.network.HttpHeader;
import org.parosproxy.paros.network.HttpMalformedHeaderException;
import org.parosproxy.paros.network.HttpMessage;
import org.parosproxy.paros.network.HttpRequestHeader;
import org.parosproxy.paros.network.HttpStatusCode;
import org.parosproxy.paros.view.View;
import org.zaproxy.zap.ZAP;
import org.zaproxy.zap.eventBus.Event;
import org.zaproxy.zap.model.SessionStructure;
import org.zaproxy.zap.model.Target;
import org.zaproxy.zap.view.SiteTreeFilter;
@SuppressWarnings("serial")
public class SiteMap extends SortedTreeModel {
private static final long serialVersionUID = 2311091007687218751L;
private enum EventType {
ADD,
REMOVE
}
private final Map hrefMap;
private Model model = null;
private SiteTreeFilter filter = null;
// ZAP: Added log
private static final Logger LOGGER = LogManager.getLogger(SiteMap.class);
public static SiteMap createTree(Model model) {
SiteMap siteMap = new SiteMap(null, model);
SiteNode root = new SiteNode(siteMap, -1, Constant.messages.getString("tab.sites"));
siteMap.setRoot(root);
return siteMap;
}
public SiteMap(SiteNode root, Model model) {
super(root);
this.model = model;
this.hrefMap = new HashMap<>();
}
/**
* Return the a HttpMessage of the same type under the tree path.
*
* @param msg
* @return null = not found
*/
public synchronized HttpMessage pollPath(HttpMessage msg) {
SiteNode resultNode = null;
URI uri = msg.getRequestHeader().getURI();
SiteNode parent = getRoot();
String folder;
try {
String host = SessionStructure.getHostName(uri);
// no host yet
parent = findChild(parent, host);
if (parent == null) {
return null;
}
List path = SessionStructure.getTreePath(model, msg);
if (path.isEmpty()) {
// Its a top level node
resultNode = parent;
}
for (int i = 0; i < path.size(); i++) {
folder = path.get(i);
if (folder != null && !folder.equals("")) {
if (i == path.size() - 1) {
String leafName = SessionStructure.getLeafName(model, folder, msg);
resultNode = findChild(parent, leafName);
} else {
parent = findChild(parent, folder);
if (parent == null) {
return null;
}
}
}
}
} catch (URIException e) {
// ZAP: Added error
LOGGER.error(e.getMessage(), e);
}
if (resultNode == null || resultNode.getHistoryReference() == null) {
return null;
}
HttpMessage nodeMsg = null;
try {
nodeMsg = resultNode.getHistoryReference().getHttpMessage();
} catch (Exception e) {
// ZAP: Added error
LOGGER.error(e.getMessage(), e);
}
return nodeMsg;
}
public SiteNode findNode(HttpMessage msg) {
return this.findNode(msg, false);
}
public synchronized SiteNode findNode(HttpMessage msg, boolean matchStructural) {
if (Constant.isLowMemoryOptionSet()) {
throw new InvalidParameterException(
"SiteMap should not be accessed when the low memory option is set");
}
if (msg == null) {
return null;
}
SiteNode resultNode = null;
URI uri = msg.getRequestHeader().getURI();
SiteNode parent = getRoot();
String folder = "";
try {
String host = SessionStructure.getHostName(uri);
// no host yet
parent = findChild(parent, host);
if (parent == null) {
return null;
}
List path = SessionStructure.getTreePath(model, msg);
if (path.isEmpty()) {
// Its a top level node
resultNode = parent;
}
for (int i = 0; i < path.size(); i++) {
folder = path.get(i);
if (folder != null && !folder.equals("")) {
if (i == path.size() - 1) {
if (matchStructural) {
resultNode = findChild(parent, folder);
} else {
String leafName = SessionStructure.getLeafName(model, folder, msg);
resultNode = findChild(parent, leafName);
}
} else {
parent = findChild(parent, folder);
if (parent == null) {
return null;
}
}
}
}
} catch (URIException e) {
LOGGER.error(e.getMessage(), e);
}
return resultNode;
}
public synchronized SiteNode findNode(URI uri) {
// Look for 'structural' nodes first
SiteNode node = this.findNode(uri, null, null);
if (node != null) {
return node;
}
return this.findNode(uri, "GET", null);
}
public synchronized SiteNode findNode(URI uri, String method, String postData) {
if (Constant.isLowMemoryOptionSet()) {
throw new InvalidParameterException(
"SiteMap should not be accessed when the low memory option is set");
}
SiteNode resultNode = null;
String folder = "";
try {
String host = SessionStructure.getHostName(uri);
// no host yet
resultNode = findChild(getRoot(), host);
if (resultNode == null) {
return null;
}
List path = SessionStructure.getTreePath(model, uri);
for (int i = 0; i < path.size(); i++) {
folder = path.get(i);
if (folder != null && !folder.equals("")) {
if (method != null && i == path.size() - 1) {
String leafName =
SessionStructure.getLeafName(model, folder, uri, method, postData);
resultNode = findChild(resultNode, leafName);
} else {
resultNode = findChild(resultNode, folder);
if (resultNode == null) {
return null;
}
}
}
}
} catch (Exception e) {
LOGGER.error(e.getMessage(), e);
}
return resultNode;
}
/*
* Find the closest parent for the message - no new nodes will be created
*/
public synchronized SiteNode findClosestParent(HttpMessage msg) {
if (msg == null) {
return null;
}
return this.findClosestParent(msg.getRequestHeader().getURI());
}
/*
* Find the closest parent for the uri - no new nodes will be created
*/
public synchronized SiteNode findClosestParent(URI uri) {
if (uri == null) {
return null;
}
SiteNode lastParent = null;
SiteNode parent = getRoot();
String folder = "";
try {
String host = SessionStructure.getHostName(uri);
// no host yet
parent = findChild(parent, host);
if (parent == null) {
return null;
}
lastParent = parent;
List path = SessionStructure.getTreePath(model, uri);
for (int i = 0; i < path.size(); i++) {
folder = path.get(i);
if (folder != null && !folder.equals("")) {
if (i == path.size() - 1) {
lastParent = parent;
} else {
parent = findChild(parent, folder);
if (parent == null) {
break;
}
lastParent = parent;
}
}
}
} catch (URIException e) {
LOGGER.error(e.getMessage(), e);
}
return lastParent;
}
/**
* Add the HistoryReference into the SiteMap. This method will rely on reading message from the
* History table. Note that this method must only be called on the EventDispatchThread
*
* @param ref
*/
public synchronized SiteNode addPath(HistoryReference ref) {
if (Constant.isLowMemoryOptionSet()) {
throw new InvalidParameterException(
"SiteMap should not be accessed when the low memory option is set");
}
if (isReferenceCached(ref)) {
return hrefMap.get(ref.getHistoryId());
}
HttpMessage msg = null;
try {
msg = ref.getHttpMessage();
} catch (Exception e) {
// ZAP: Added error
LOGGER.error(e.getMessage(), e);
return null;
}
return addPath(ref, msg);
}
/**
* Add the HistoryReference with the corresponding HttpMessage into the SiteMap. This method
* saves the msg to be read from the reference table. Use this method if the HttpMessage is
* known. Note that this method must only be called on the EventDispatchThread
*
* @param msg the HttpMessage
* @return the SiteNode that corresponds to the HttpMessage
*/
public SiteNode addPath(HistoryReference ref, HttpMessage msg) {
return this.addPath(ref, msg, false);
}
/**
* Add the HistoryReference with the corresponding HttpMessage into the SiteMap. This method
* saves the msg to be read from the reference table. Use this method if the HttpMessage is
* known. Note that this method must only be called on the EventDispatchThread
*
* @param msg the HttpMessage
* @param newOnly Only return a SiteNode if one was newly created
* @return the SiteNode that corresponds to the HttpMessage, or null if newOnly and the node
* already exists
* @since 2.7.0
*/
public SiteNode addPath(HistoryReference ref, HttpMessage msg, boolean newOnly) {
if (Constant.isLowMemoryOptionSet()) {
throw new InvalidParameterException(
"SiteMap should not be accessed when the low memory option is set");
}
if (View.isInitialised() && Constant.isDevMode() && !EventQueue.isDispatchThread()) {
// In developer mode log an error if we're not on the EDT
// Adding to the site tree on GUI ('initial') threads causes problems
LOGGER.error(
"SiteMap.addPath not on EDT {}",
Thread.currentThread().getName(),
new Exception());
}
if (isReferenceCached(ref)) {
return hrefMap.get(ref.getHistoryId());
}
URI uri = msg.getRequestHeader().getURI();
LOGGER.debug("addPath {}", uri);
SiteNode parent = getRoot();
SiteNode leaf = null;
String folder = "";
boolean isNew = false;
try {
String host = SessionStructure.getHostName(uri);
// add host
parent = findAndAddChild(parent, host, ref, msg);
List path = SessionStructure.getTreePath(model, msg);
for (int i = 0; i < path.size(); i++) {
folder = path.get(i);
if (folder != null && !folder.equals("")) {
if (newOnly) {
// Check to see if it already exists
String leafName = SessionStructure.getLeafName(model, folder, msg);
isNew = (findChild(parent, leafName) == null);
}
if (i == path.size() - 1) {
leaf = findAndAddLeaf(parent, folder, ref, msg);
ref.setSiteNode(leaf);
} else {
parent = findAndAddChild(parent, folder, ref, msg);
}
}
}
if (leaf == null) {
// No leaf found, which means the parent was really the leaf
// The parent will have been added with a 'blank' href, so replace it with the real
// one
parent.setHistoryReference(ref);
leaf = parent;
}
} catch (Exception e) {
// ZAP: Added error
LOGGER.error("Exception adding {} {}", uri, e.getMessage(), e);
}
hrefMap.putIfAbsent(ref.getHistoryId(), leaf);
if (!newOnly || isNew) {
return leaf;
}
return null;
}
private boolean isReferenceCached(HistoryReference ref) {
// FIXME Use of cache leads to missing alerts in the tree nodes.
// return ref.getHistoryType() != HistoryReference.TYPE_TEMPORARY
// && hrefMap.containsKey(ref.getHistoryId());
return false;
}
private SiteNode findAndAddChild(
SiteNode parent, String nodeName, HistoryReference baseRef, HttpMessage baseMsg)
throws URIException,
HttpMalformedHeaderException,
NullPointerException,
DatabaseException {
LOGGER.debug("findAndAddChild {} / {}", parent.getNodeName(), nodeName);
if (isReferenceCached(baseRef)) {
return hrefMap.get(baseRef.getHistoryId());
}
SiteNode result = findChild(parent, nodeName);
if (result == null) {
SiteNode newNode = null;
if (!baseRef.getCustomIcons().isEmpty()) {
newNode = new SiteNode(this, baseRef.getHistoryType(), nodeName);
newNode.setCustomIcons(baseRef.getCustomIcons(), baseRef.getClearIfManual());
} else {
newNode = new SiteNode(this, baseRef.getHistoryType(), nodeName);
}
int pos = parent.getChildCount();
for (int i = 0; i < parent.getChildCount(); i++) {
if (((SiteNode) parent.getChildAt(i)).isParentOf(nodeName)) {
pos = i;
break;
}
}
result = newNode;
result.setHistoryReference(
createReference(createTreeNodePath(parent, newNode), baseRef, baseMsg));
insertNodeInto(newNode, parent, pos);
// Check if its in or out of scope - has to be done after the node is entered into the
// tree
newNode.setIncludedInScope(model.getSession().isIncludedInScope(newNode), true);
newNode.setExcludedFromScope(model.getSession().isExcludedFromScope(newNode), true);
hrefMap.put(result.getHistoryReference().getHistoryId(), result);
applyFilter(newNode);
handleEvent(parent, result, EventType.ADD);
}
// ZAP: Cope with getSiteNode() returning null
if (baseRef.getSiteNode() == null) {
baseRef.setSiteNode(result);
}
return result;
}
private static TreeNode[] createTreeNodePath(SiteNode parent, SiteNode child) {
TreeNode[] parentPath = parent.getPath();
TreeNode[] path = new TreeNode[parentPath.length + 1];
System.arraycopy(parentPath, 0, path, 0, parentPath.length);
path[path.length - 1] = child;
return path;
}
private SiteNode findChild(SiteNode parent, String nodeName) {
// ZAP: Added debug
LOGGER.debug("findChild {} / {}", parent.getNodeName(), nodeName);
for (int i = 0; i < parent.getChildCount(); i++) {
SiteNode child = (SiteNode) parent.getChildAt(i);
if (child.getNodeName().equals(nodeName)) {
return child;
}
}
return null;
}
private SiteNode findAndAddLeaf(
SiteNode parent, String nodeName, HistoryReference ref, HttpMessage msg) {
// ZAP: Added debug
LOGGER.debug("findAndAddLeaf {} / {}", parent.getNodeName(), nodeName);
String leafName = SessionStructure.getLeafName(model, nodeName, msg);
SiteNode node = findChild(parent, leafName);
if (node == null) {
node = new SiteNode(this, ref.getHistoryType(), leafName, nodeName);
if (!ref.getCustomIcons().isEmpty()) {
node.setCustomIcons(ref.getCustomIcons(), ref.getClearIfManual());
}
node.setHistoryReference(ref);
hrefMap.put(ref.getHistoryId(), node);
int pos = parent.getChildCount();
for (int i = 0; i < parent.getChildCount(); i++) {
if (((SiteNode) parent.getChildAt(i)).isParentOf(nodeName)) {
pos = i;
break;
}
}
// ZAP: cope with getSiteNode() returning null
if (ref.getSiteNode() == null) {
ref.setSiteNode(node);
}
insertNodeInto(node, parent, pos);
// Check if its in or out of scope - has to be done after the node is entered into the
// tree
node.setIncludedInScope(model.getSession().isIncludedInScope(node), true);
node.setExcludedFromScope(model.getSession().isExcludedFromScope(node), true);
this.applyFilter(node);
handleEvent(parent, node, EventType.ADD);
} else if (hrefMap.get(ref.getHistoryId()) != node) {
// do not replace if
// - use local copy (304). only use if 200
if (msg.getResponseHeader().getStatusCode() == HttpStatusCode.OK) {
// replace node HistoryReference to this new child if this is a spidered record.
node.setHistoryReference(ref);
ref.setSiteNode(node);
} else {
node.getPastHistoryReference().add(ref);
ref.setSiteNode(node);
}
hrefMap.put(ref.getHistoryId(), node);
}
return node;
}
public HistoryReference createReference(
SiteNode node, HistoryReference baseRef, HttpMessage base)
throws HttpMalformedHeaderException,
DatabaseException,
URIException,
NullPointerException {
return createReference(node.getPath(), baseRef, base);
}
private HistoryReference createReference(
TreeNode[] path, HistoryReference baseRef, HttpMessage base)
throws HttpMalformedHeaderException,
DatabaseException,
URIException,
NullPointerException {
StringBuilder sb = new StringBuilder();
String nodeName;
String uriPath = baseRef.getURI().getPath();
if (uriPath == null) {
uriPath = "";
}
String[] origPath = uriPath.split("/");
for (int i = 1; i < path.length; i++) {
// ZAP Cope with error counts in the node names
nodeName = ((SiteNode) path[i]).getNodeName();
if (((SiteNode) path[i]).isDataDriven()) {
// Retrieve original name..
if (origPath.length > i - 1) {
LOGGER.debug(
"Replace Data Driven element {} with {}", nodeName, origPath[i - 1]);
sb.append(origPath[i - 1]);
} else {
LOGGER.error(
"Failed to determine original node name for element {} {} original request: {}",
i,
nodeName,
baseRef.getURI());
sb.append(nodeName);
}
} else {
sb.append(nodeName);
}
if (i < path.length - 1) {
sb.append('/');
}
}
HttpMessage newMsg = base.cloneRequest();
// ZAP: Prevents a possible URIException, because the passed string is not escaped.
URI uri = new URI(sb.toString(), false);
newMsg.getRequestHeader().setURI(uri);
newMsg.getRequestHeader().setMethod(HttpRequestHeader.GET);
newMsg.getRequestBody().setBody("");
newMsg.getRequestHeader().setHeader(HttpHeader.CONTENT_TYPE, null);
newMsg.getRequestHeader().setHeader(HttpHeader.CONTENT_LENGTH, null);
// HistoryReference historyRef = new HistoryReference(model.getSession(),
// baseRef.getHistoryType(), newMsg);
HistoryReference historyRef =
new HistoryReference(model.getSession(), HistoryReference.TYPE_TEMPORARY, newMsg);
return historyRef;
}
public SiteNode getSiteNode(int href) {
return hrefMap.get(href);
}
public void removeHistoryReference(int historyId) {
hrefMap.remove(historyId);
}
/**
* Set the filter for the sites tree
*
* @param filter
*/
public void setFilter(SiteTreeFilter filter) {
this.filter = filter;
SiteNode root = getRoot();
setFilter(filter, root);
// Never filter the root node
root.setFiltered(false);
}
private boolean setFilter(SiteTreeFilter filter, SiteNode node) {
boolean filtered = !filter.matches(node);
for (int i = 0; i < node.getChildCount(); i++) {
if (!setFilter(filter, (SiteNode) node.getChildAt(i))) {
// Always shoe a node if at least one of its children as not filtered
filtered = false;
}
}
node.setFiltered(filtered);
return filtered;
}
/** Clear the sites tree filter - all nodes will become visible */
public void clearFilter() {
this.filter = null;
clearFilter(getRoot());
}
private void clearFilter(SiteNode node) {
node.setFiltered(false);
for (int i = 0; i < node.getChildCount(); i++) {
clearFilter((SiteNode) node.getChildAt(i));
}
}
/**
* Applies the current filter (if there is one) to the node. This should be called anytime a
* change is made to a node that could affect its visibility in the filtered tree
*
* @param node
*/
protected void applyFilter(SiteNode node) {
if (filter != null) {
boolean filtered = this.setFilter(filter, node);
SiteNode parent = node.getParent();
if (parent != null && !filtered && parent.isFiltered()) {
// This node is no longer filtered but its parent is, unfilter the parent so it
// becomes visible
this.clearParentFilter(parent);
}
} else {
node.setFiltered(false);
}
}
/**
* Recurse up the tree setting all of the parent nodes to unfiltered
*
* @param parent
*/
private void clearParentFilter(SiteNode parent) {
if (parent != null) {
parent.setFiltered(false);
clearParentFilter(parent.getParent());
}
}
@Override
public void removeNodeFromParent(MutableTreeNode node) {
SiteNode parent = (SiteNode) node.getParent();
super.removeNodeFromParent(node);
handleEvent(parent, (SiteNode) node, EventType.REMOVE);
}
/**
* Handles the publishing of the add or remove event. Node events are always published. Site
* events are only published when the parent of the node is the root of the tree.
*
* @param parent relevant parent node
* @param node the site node the action is being carried out for
* @param eventType the type of event occurring (ADD or REMOVE)
* @see EventType
* @since 2.5.0
*/
private void handleEvent(SiteNode parent, SiteNode node, EventType eventType) {
switch (eventType) {
case ADD:
publishEvent(SiteMapEventPublisher.SITE_NODE_ADDED_EVENT, node);
if (parent == getRoot()) {
publishEvent(SiteMapEventPublisher.SITE_ADDED_EVENT, node);
}
break;
case REMOVE:
publishEvent(SiteMapEventPublisher.SITE_NODE_REMOVED_EVENT, node);
if (parent == getRoot()) {
publishEvent(SiteMapEventPublisher.SITE_REMOVED_EVENT, node);
}
}
}
/**
* Publish the event being carried out.
*
* @param event the event that is happening
* @param node the node being acted upon
* @since 2.5.0
*/
private static void publishEvent(String event, SiteNode node) {
ZAP.getEventBus()
.publishSyncEvent(
SiteMapEventPublisher.getPublisher(),
new Event(SiteMapEventPublisher.getPublisher(), event, new Target(node)));
}
@Override
public SiteNode getRoot() {
return (SiteNode) this.root;
}
}
/**
* Based on example code from: Sorted
* Tree Example
*/
@SuppressWarnings("serial")
class SortedTreeModel extends DefaultTreeModel {
private static final long serialVersionUID = 4130060741120936997L;
private Comparator comparator;
public SortedTreeModel(TreeNode node, SiteNodeStringComparator siteNodeStringComparator) {
super(node);
this.comparator = siteNodeStringComparator;
}
public SortedTreeModel(TreeNode node) {
super(node);
this.comparator = new SiteNodeStringComparator();
}
public SortedTreeModel(
TreeNode node, boolean asksAllowsChildren, Comparator aComparator) {
super(node, asksAllowsChildren);
this.comparator = aComparator;
}
public void insertNodeInto(SiteNode child, SiteNode parent) {
int index = findIndexFor(child, parent);
super.insertNodeInto(child, parent, index);
}
public void insertNodeInto(SiteNode child, SiteNode parent, int i) {
// The index is useless in this model, so just ignore it.
insertNodeInto(child, parent);
}
private int findIndexFor(SiteNode child, SiteNode parent) {
int childCount = parent.getChildCount();
if (childCount == 0) {
return 0;
}
if (childCount == 1) {
return comparator.compare(child, (SiteNode) parent.getChildAt(0)) <= 0 ? 0 : 1;
}
return findIndexFor(child, parent, 0, childCount - 1);
}
private int findIndexFor(SiteNode child, SiteNode parent, int idx1, int idx2) {
if (idx1 == idx2) {
return comparator.compare(child, (SiteNode) parent.getChildAt(idx1)) <= 0
? idx1
: idx1 + 1;
}
int half = (idx1 + idx2) / 2;
if (comparator.compare(child, (SiteNode) parent.getChildAt(half)) <= 0) {
return findIndexFor(child, parent, idx1, half);
}
return findIndexFor(child, parent, half + 1, idx2);
}
}